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Prof. Dr. techn. Reinhard Kienberger

Photo von Prof. Dr. Reinhard Kienberger.
Phone
+49 89 289-12840
Room
113
E-Mail
reinhard.kienberger@tum.de
studiendekan@ph.tum.de (Dean of Studies Physics)
Links
Homepage
Page in TUMonline
Group
Laser and X-Ray Physics
Job Titles
  • Department Council Member: Representative of the professors, Dean of Studies
  • Professorship on Laser and X-Ray Physics
  • Dean of Studies Physics

Courses and Dates

Title and Module Assignment
ArtSWSLecturer(s)Dates
Ultrafast Physics 2
eLearning course
Assigned to modules:
VO 2 Iglev, H. Kienberger, R. Thu, 10:00–12:00, PH II 127
Lecture Series "Introduction to Current Aspects of Scientific Research"
eLearning course current information
Assigned to modules:
VO 2 Kienberger, R.
Assisstants: Höffer von Loewenfeld, P.
Wed, 14:00–15:00, virtuell
Wed, 15:00–16:00, virtuell
Attosecond Metrology
Assigned to modules:
HS 2 Kienberger, R.
Assisstants: Schröder, C.
Student Seminar Photonics and Ultrafast Physics
Assigned to modules:
PS 2 Iglev, H. Kienberger, R. Thu, 14:00–16:00, PH II 127
Exercise to Photonics and Ultrafast Physics 2
eLearning course
Assigned to modules:
UE 2 Iglev, H. Kienberger, R. dates in groups
Writing your Bachelor's Thesis
eLearning course
Assigned to modules:
WS 0.5 Rohr, C.
Responsible/Coordination: Kienberger, R.
singular or moved dates
Bachelor's Work Experience in Physics
Assigned to modules:
FO 2
Responsible/Coordination: Kienberger, R.
Experiments to Experimental Physics 2
Assigned to modules:
PR 2 Finley, J. Kienberger, R. dates in groups
FOPRA Experiment 13: Laser and Non-Linear Optics
Assigned to modules:
PR 1 Kienberger, R.
Assisstants: Schröder, C.
Kolloquium zur Themenstellung der ersten Staatsprüfung für Lehrämter an öffentlichen Schulen
This course is not assigned to a module.
KO 4 Gernhäuser, R.
Responsible/Coordination: Kienberger, R.
Master's Work Experience (AEP)
Assigned to modules:
FO 10
Responsible/Coordination: Kienberger, R.
Master's Work Experience (BIO)
Assigned to modules:
FO 10
Responsible/Coordination: Kienberger, R.
Master's Work Experience (KM)
Assigned to modules:
FO 10
Responsible/Coordination: Kienberger, R.
Master's Work Experience (KTA)
Assigned to modules:
FO 10
Responsible/Coordination: Kienberger, R.
Master's Seminar (AEP)
Assigned to modules:
SE 10
Responsible/Coordination: Kienberger, R.
Master's Seminar (BIO)
Assigned to modules:
SE 10
Responsible/Coordination: Kienberger, R.
Master's Seminar (KM)
Assigned to modules:
SE 10
Responsible/Coordination: Kienberger, R.
Master's Seminar (KTA)
Assigned to modules:
SE 10
Responsible/Coordination: Kienberger, R.
Basic Lab Course 1
eLearning course course documents
Assigned to modules:
PR 4 Kienberger, R. Saß, M. dates in groups
Basic Lab Course 2
eLearning course course documents
Assigned to modules:
PR 4 Kienberger, R. Saß, M. dates in groups
Basic Lab Course 3
eLearning course course documents
Assigned to modules:
PR 4 Kienberger, R. Saß, M. dates in groups
Repetitorium on Experimental Physics
eLearning course
Assigned to modules:
RE 2 Gernhäuser, R.
Responsible/Coordination: Kienberger, R.
Assisstants: Feil, M.
Revision Course Laser and X-Ray Physics
Assigned to modules:
RE 2 Kienberger, R. Mon, 14:00–16:00, PH II 111
Revision Course to Student Seminar Photonics and Ultrafast Physics
Assigned to modules:
RE 2
Responsible/Coordination: Kienberger, R.
Seminar on Current Topics of Quantum Optics
course documents
Assigned to modules:
SE 2 Kienberger, R. Fri, 10:00–12:00, PH II 127
Seminar zur Evaluierung der ersten Staatsprüfung für Lehrämter an öffentlichen Schulen
This course is not assigned to a module.
SE 4 Gernhäuser, R.
Responsible/Coordination: Kienberger, R.
Theoreticum (TMP)
This course is not assigned to a module.
FO 6
Responsible/Coordination: Kienberger, R.
Tutor Training
Assigned to modules:
WS 1 Rohr, C.
Responsible/Coordination: Kienberger, R.

Offered Bachelor’s or Master’s Theses Topics

Absolute Photoemissionszeitbestimmung in Iodmethan und Iodethan

Auch für KM! (English see below)

Diese Masterarbeit behandelt die experimentelle Bestimmung der absoluten Photoemissionszeit des I4d-Niveaus in Iodmethan und Iodethan für Photonenenergien zwischen 90eV und 120eV, und ist Teil einer größeren Messkampange die es zum Ziel hat die Photoemission von kleinen organischen Molekülen zu untersuchen, und damit besser zu verstehen.

Dabei eröffnet sich die Möglichkeit nicht nur die molekulare Umgebung, sondern auch die sog. giant resonance im I4d->Ef Kanal - ein Phänomen von großem Interesse in der Atomphysik - in der Zeitdomäne zu untersuchen. Die anregungsenergieabhängige Photoemissionszeit, welche in der Größenordnung von Attosekunden liegt (1as = 1e-18s), kann experimentell nur mit spezialisierten Methoden aus der Ultrakurzzeitphysik bestimmt werden: unser Aufbau implementiert das Prinzip der attosecond streak camera und ein kürzlich etabliertes absolutes Referenzierungsschema und ist damit nahezu einzigartig in der Welt.

Die experimentelle Arbeit wird durch numerische Untersuchungen der Photoemissionszeit der Moleküle ergänzt. Dabei werden etablierte Methoden für die Bestimmung der molekularen elektronischen Struktur, sowie für die Behandlung des Photoemissionsprozesses zum Einsatz kommen.

PDF-Version mit Referenzen:

https://www.groups.ph.tum.de/fileadmin/w00bya/e11/_my_direct_uploads/ad_german_reduced.pdf

This thesis concerns itself with the experimental assessment of the absolute timing of the I4d photoemissionfrom Iodomethane and Iodoethane for photon energies between 90eV and 120eV. It is part of a larger effort to understand the dynamics of photoemission from small molecules and offers the opportunity to study not only the influence of the molecular environment on the observable photoemission delay, but also the so-called giant resonance in the I4d->Ef photoemission in the time domain - a phenomenon of great interest in atomic physics.The excitation-energy dependent photoemission delay, which is on the order of attoseconds (1as = 1e-18s), can only be accessed in an experiment using sophisticated tools from the field of ultrafast physics: our setup implements the attosecond streak camera principle and an absolute referencing scheme established recently. It is one of the few in the world where such experiments can be conducted. The experimental work will be complemented by state-of-the-art numerical studies of the photoemission process in these molecules in order to complete the picture, where well-established methods will be applied for the determination of molecular electronic structure and the treatment of the photoionization process.

suitable as
  • Master’s Thesis Applied and Engineering Physics
Supervisor: Reinhard Kienberger
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